Co-activation of ipsi- and contralateral muscle groups during contraction of ankle dorsiflexors

Seventeen adult, healthy subjects, age 38.4 +/- 0.24 years (mean +/- SEM) 7 of which were females, were studied. Each subject was seated on a specially designed chair with trunk and legs fixed and the foot strapped to a rigid plate that was attached to a load cell. The position of the strap was adjusted so as to lie across the foot at the level of the metatarsal bones. The knee and ankle joints were adjusted to 90 degrees. To record EMG activity, pairs of surface electrodes were placed over the belly of both the right and left tibialis anterior, quadriceps, hamstring and contralateral triceps surae muscles. Two experimental paradigms were used, A and B. In A the subject was asked to sustain maximum voluntary contraction (MVC) of the ankle dorsiflexors until the force decreased to 50% of the initial value; in B the subject was asked to carry out contractions of the ankle dorsiflexors for 6 seconds followed by 4 sec relaxation periods. The initial contraction was 20% of MVC followed by 40, 60, 80 and 100% of MVC which represented one cycle. The subject was asked to repeat this cycle 10 times. Voluntary contraction of ankle dorsiflexors was regularly accompanied by activation of other muscles, usually first in the same leg, later in the contralateral leg during MVC of ankle dorsiflexors. When intermittent contractions with step wise increments of force developed by the ankle dorsiflexors were carried out, co-activation of ipsilateral and contralateral muscle groups occurred before the force of the contracting muscles decreased.(ABSTRACT TRUNCATED AT 250 WORDS)

[1]  R. C. Davis The pattern of muscular action in simple voluntary movement. , 1942 .

[2]  M. Abercrombie,et al.  Associated Movements in Normal and Physically Handicapped Children , 1964, Developmental medicine and child neurology.

[3]  M W Weiner,et al.  Nonmetabolic fatigue in exercising human muscle , 1989, Neurology.

[4]  P. Wolff,et al.  ASSOCIATED MOVEMENTS AS A MEASURE OF DEVELOPMENTAL AGE , 1983, Developmental medicine and child neurology.

[5]  J. B. Green,et al.  An electromyographic study of mirror movements , 1967, Neurology.

[6]  E. Gellhorn,et al.  Patterns of muscular activity in man. , 1947, Archives of physical medicine and rehabilitation.

[7]  B. Bigland-ritchie,et al.  Fatigue of intermittent submaximal voluntary contractions: central and peripheral factors. , 1986, Journal of applied physiology.

[8]  K. Zülch,et al.  Associated movements in man , 1969 .

[9]  F. Podivínsky FACTORS AFFECTING THE COURSE AND THE INTENSITY OF CROSSED MOTOR IRRADIATION DURING VOLUNTARY MOVEMENT IN HEALTHY HUMAN SUBJECTS. , 1964, Physiologia Bohemoslovaca.

[10]  R. Karrer,et al.  Movement-related potentials and control of associated movements. , 1988, The International journal of neuroscience.

[11]  Indirect learning. The influence of unimanual exercise on related muscle groups of the same and the opposite side. , 1962, American journal of physical medicine.

[12]  A Factor Influencing Motor Overflow , 1965, Perceptual and motor skills.

[13]  D. Jones,et al.  Human skeletal muscle function: description of tests and normal values. , 1977, Clinical science and molecular medicine.

[14]  J. I. Todor,et al.  EXERTION LEVEL AND THE INTENSITY OF ASSOCIATED MOVEMENTS , 1986, Developmental medicine and child neurology.

[15]  Imitation synkinesia and sensory control of movement , 1977, Neurology.

[16]  R. Edwards,et al.  Human muscle function and fatigue. , 2008, Ciba Foundation symposium.